INSTRUMENTAL SUPPORT FOR IONOSPHERIC, MAGNETIC AND HELIOGEOPHYSICAL OBSERVATIONS

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During the period of maximum solar activity, extreme space weather events increasingly affect technical means and systems. The article considers the ground-based heliogeophysical observation platform, as well as on-board heliogeophysical hardware complexes (GGAK), which conduct operational monitoring of space weather from space crafts.

作者简介

V. Minligareev

Institute of applied geophysics named after Academician E.K. Fedorov

Email: vns32@yandex.ru

E. Khotenko

Institute of Applied Geophysics named after Academician E.K. Fedorov

Email: khotenko@ipg.geospace.ru
ORCID iD: 0009-0003-6567-1702
Scopus 作者 ID: 8730711100
candidate of physical and mathematical sciences

参考

  1. Avdyushin S. I., Vazhenin A. A., Ginzburg E. A., et al. Measurements of fluxes of ionizing radiation characteristics in near-space on hydro-meteorological satellite ”Meteor-3M” // Spetsial’naya Tekhnika. — 2014. — No. 2. — P. 45–54. — (In Russian).
  2. Bragina A. A., Arutyunyan D. A., Minligareev V. T. Review of heliogeophysical space system with magnetometric equipment // Heliogeophysical research. — 2022. — No. 34. — P. 40–48. — doi: 10.5425/2304-7380_2022_34_40. — (In Russian).
  3. Bragina A. A., Minligareev V. T., Bogodyazh S. D. Prospects for the Development of Heliogeophysical Satellite Observations on Small Satellites // Cosmic Research. — 2025. — Vol. 63, no. 1. — P. 94–102. — doi: 10.1134/S0010952524601488.
  4. Bragina A. A., Minligareev V. T., Bogodyazh S. D. Prospects for the development of small spacecraft constellations for space weather monitoring // Eleventh International Scientific and Technical Conference “Current Problems of Creating Space Systems for Remote Sensing of the Earth”. — Moscow : VNIIEM Corporation, 2023. — P. 38–39. — (In Russian).
  5. Mayorova V., Minligareev V., Akhmedshin R., et al. Flight Experience in Space Weather Monitoring Using CubeSats // 31st IAA Symposium on Small Satellite Missions. — International Astronautical Federation (IAF), 2024a. — P. 174–179. — doi: 10.52202/078365-0020.
  6. Mayorova V., Minligareev V., Akhmedshin R., et al. Flight Experience in Space Weather Monitoring Using CubeSats // 31st IAA Symposium on Small Satellite Missions. — International Astronautical Federation (IAF), 2024b. — P. 174–179.
  7. Melnikova V., Mayorova V., Tenenbaum S., et al. Experience in the Development and Operation of the Nanosatellites for Space Weather Monitoring // 72nd International Astronautical Congress 2021. — United Arab Emirates : IAF, 2021.
  8. Minligareev V. T., Kachanovsky Y. M., Panshin E. A., et al. Creation of a distributed reference base for radiometric equipment of heliogeophysical complexes of hydrometeorological spacecraft // Measurements World. — 2016. — No. 1. — P. 51–59. — (In Russian).
  9. Minligareev V. T., Kachanovskii Y. M., Kravchenok V. L., et al. Metrological support for the roshydromet ionospheric and magnetic observation network // Meteorologiya i Gidrologiya. — 2021. — No. 4. — P. 43–52. — doi: 10.52002/0130-2906-2021-4-43-52. — (In Russian).
  10. Minligareev V. T., Kalishin A. S. Monitoring geophysical condition in the Arctic zone of Russian Federation // Proceedings of the scientific and practical conference “Prevention and elimination of emergency situations in the Arctic zone of the Russian Federation”. — Murmansk : MASU, 2023a. — P. 224–226. — (In Russian).
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